Gamma-ray and optical flares detected from the blazar S5 1803+784

Gamma-ray and optical flares detected from the blazar S5 1803+784
The combined light curve of S5 1803+784 in linear scale: lower scale in MJD, upper scale in calendar years. Upper panel, gamma-ray, binned at 10-day intervals: blue points are detections, grey triangles are upper limits; middle panel, optical: orange points are the team's own data, red points are KAIT public data; lower panel, radio 15 GHz from OVRO monitoring. Vertical lines mark the flares discussed in the study. Credit: Nesci et al., 2021.

Using NASA's Fermi spacecraft, astronomers have conducted a long-term monitoring campaign of a blazar known as S5 1803+784 and have identified several gamma-ray and optical flares from this source. The finding is detailed in a paper published February 19 on arXiv.org.

Blazars are very compact quasars associated with at the centers of active, giant elliptical galaxies, and can exhibit variability on a wide range of timescales. They belong to a larger group of active galaxies that host (AGN), and their characteristic features are relativistic jets pointed almost exactly toward the Earth.

Based on their optical emission properties, astronomers divide blazars into two classes: (FSRQs) that feature prominent and broad optical emission lines, and BL Lacertae objects (BL Lacs), which do not. At a redshift of 0.683, S5 1803+784 is a radio-selected BL Lac object. It showcases large variations in the optical range and is well detected at gamma-ray energies.

The source has been monitored with Fermi's Large Area Telescope (LAT) between August 2008 and December 2018. By analyzing this dataset, a team of astronomers led by Roberto Nesci of the Institute for Space Astrophysics and Planetology (INAF-IAPS) in Rome, Italy, aimed to investigate light curves of S5 1803+784, expecting to find correlations between the blazar's low- and high-frequency components.

"The aim of this work is to look for correlations among different wavelengths useful for further . We analyzed all the data collected by Fermi LAT for this source, taking into account the presence of nearby sources, and we collected optical data from our own observations and public archive data to build the most complete optical and gamma-ray light curve possible," the researchers explained.

Although the study did not detect definite periodicity in the optical and gamma-ray light curves of S5 1803+784, several gamma-ray flares with optical coverage were identified. The researchers also detected two optical flares without a gamma-ray counterpart.

According to the paper, the optical spectral index of S5 1803+784 was constant during the monitoring campaign, regardless of the optical luminosity of the source. Moreover, the X-ray spectral index showed no evidence of hardening at higher fluxes.

The astronomers noted that the gamma-ray photon spectral index of the source showed no significant variations correlated with the luminosity. This is in contrast to the so-called "softer when brighter" or "harder when brighter" behaviors observed in some blazars.

"The absence of spectral evolution as a function of the luminosity could be related to the location of the gamma-ray emission region in the flaring state beyond the emission line region," the researchers concluded.

Furthermore, the study found no correlation between X-ray and optical fluxes; however, the gamma-ray emission showed a fair correlation with the optical one, except in the case of some minor optical flares when no enhancements were identified.

Regarding the morphology of S5 1803+784, the radio maps show two new components originating from the blazar's core and moving outward. This finding, according to the authors of the paper, suggests a causal connection between the mechanisms producing the high-energy and the radio-band radiation in blazars.


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More information: Multi-wavelength flare observations of the blazar S5 1803+784, arXiv:2102.09779 [astro-ph.HE] arxiv.org/abs/2102.09779

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Citation: Gamma-ray and optical flares detected from the blazar S5 1803+784 (2021, March 1) retrieved 18 June 2021 from https://phys.org/news/2021-03-gamma-ray-optical-flares-blazar-s5.html
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